System, method, and apparatus to control engine intake manifold air temperature
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02M-035/10
F02M-021/06
F02D-035/02
F02D-041/00
F02M-035/104
F01P-003/20
F02M-031/10
F02M-031/18
출원번호
US-0255999
(2016-09-02)
등록번호
US-10082109
(2018-09-25)
발명자
/ 주소
Engfehr, Matthew J.
Atterberry, Nathan P.
Schaller, David F.
출원인 / 주소
Caterpillar Inc.
대리인 / 주소
Oblon, McClelland, Maier & Neustadt
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
A system, method, and apparatus for controlling intake manifold air temperature (IMAT) of a dual fuel engine are provided. A determination regarding whether IMAT is to be modified is performed, followed by modifying the IMAT by changing flow of coolant in a cooling circuit in fluid communication wit
A system, method, and apparatus for controlling intake manifold air temperature (IMAT) of a dual fuel engine are provided. A determination regarding whether IMAT is to be modified is performed, followed by modifying the IMAT by changing flow of coolant in a cooling circuit in fluid communication with a separate circuit aftercooler (SCAC) of a SCAC circuit from a first flow path to a second flow path when it is determined that the IMAT is to be modified. A portion of the first flow path overlaps a portion of the second flow path.
대표청구항▼
1. A diesel-natural gas combustion engine system configured to operate using natural gas and injected diesel fuel as an ignition fuel, the engine system comprising: a vaporizer including a heat exchanger, the vaporizer being configured to vaporize liquefied natural gas and provide the vaporized liqu
1. A diesel-natural gas combustion engine system configured to operate using natural gas and injected diesel fuel as an ignition fuel, the engine system comprising: a vaporizer including a heat exchanger, the vaporizer being configured to vaporize liquefied natural gas and provide the vaporized liquid natural gas to the diesel-natural gas combustion engine;a jacket water coolant circuit configured to circulate coolant between a cooling jacket of the diesel-natural gas combustion engine system and the heat exchanger of the vaporizer to vaporize liquefied natural gas in the vaporizer;a split-flow separate circuit aftercooler circuit configured to circulate coolant between a radiator and an aftercooler according to a first flow path to cool post-turbocharger intake manifold air temperature and between the aftercooler and the heat exchanger of the vaporizer according to a second flow path to vaporize liquid natural gas in the vaporizer and cool the post-turbocharger intake manifold air temperature; anda controller configured to:control supply of the natural gas to the diesel-natural gas combustion engine,determine an abnormal combustion condition of the diesel-natural gas combustion engine, andin response to a determination of the abnormal combustion condition of the diesel-natural gas combustion engine, output at least one control signal to change a flow path of the coolant of the split-flow separate circuit aftercooler circuit so as to cause a portion of the coolant of the split-flow separate circuit aftercooler circuit to be directed to the vaporizer to vaporize liquid natural gas in the vaporizer while the natural gas is supplied to the diesel-natural gas combustion engine,wherein the split-flow separate circuit aftercooler circuit includes a plurality of valves that are controllable by the controller to change the flow path of the coolant of the split-flow separate circuit aftercooler circuit such that the portion of the coolant of the split-flow separate circuit aftercooler circuit is directed to the vaporizer, responsive to the at least one control signal output by the controller to change the flow path of the coolant of the split-flow separate circuit aftercooler circuit,wherein the change in the flow path of the coolant of the split-flow separate circuit aftercooler circuit is from the first flow path, where no portion of the coolant of the split-flow separate circuit aftercooler circuit is directed to the vaporizer, to the second flow path, where the portion of the coolant of the split-flow separate circuit aftercooler circuit is directed to the vaporizer, andwherein the second flow path of the coolant of the split-flow separate circuit aftercooler circuit is in fluid communication with a portion of a flow path of the jacket water coolant circuit. 2. The diesel-natural gas combustion engine system of claim 1, wherein the portion of the coolant of the split-flow separate circuit aftercooler circuit directed to the vaporizer is a first portion of the coolant of the split-flow separate circuit aftercooler circuit, and, concurrently, a second portion of the coolant of the split-flow separate circuit aftercooler circuit is directed to the radiator when the first portion of the coolant of the split-flow separate circuit aftercooler circuit is directed to the vaporizer. 3. The diesel-natural gas combustion engine system of claim 1, wherein the controller is configured to control at least one valve of the plurality of valves to stop flow of the coolant of the jacket water coolant circuit upon the changing of the flow path of the coolant of the split-flow separate circuit aftercooler circuit. 4. The diesel-natural gas combustion engine system of claim 1, wherein the controller is configured to control at least one valve of the plurality of valves to continue flow of the coolant of the jacket water coolant circuit upon the changing of the flow path of the coolant of the split-flow separate circuit aftercooler circuit. 5. The diesel-natural gas combustion engine system of claim 1, wherein the controller is configured control at least one valve of the plurality of valves to modulate the change in the flow path of the coolant of the split-flow separate circuit aftercooler circuit upon the determination of the abnormal combustion condition of the diesel-natural gas combustion engine. 6. The diesel-natural gas combustion engine system of claim 1, wherein the change in the flow path includes modulating the flow path between the change in the flow path and a flow path prior to the change. 7. The diesel-natural gas combustion engine system of claim 1, wherein the controller determines the abnormal combustion condition of the diesel-natural gas combustion engine based on signals from one or more of an in-cylinder pressure sensor and a knock sensor. 8. A system for controlling intake manifold air temperature of a dual fuel engine, the system comprising: a separate circuit aftercooler circuit configured to selectively circulate coolant between a radiator and an aftercooler according to a first flow path and between the aftercooler and a heat exchanger of a vaporizer according to a second flow path, portions of the first flow path overlapping portions of the second flow path;a coolant circuit configured to circulate coolant between a cooling jacket of the dual fuel engine and the heat exchanger of the vaporizer; anda controller configured to:receive signals representative of one or more of engine operating conditions, cooling system operating conditions, combustion characteristics, fan operating conditions, and ambient conditions,determine that the intake manifold air temperature needs to be decreased based on the received signals,control a change of coolant flow in the separate circuit aftercooler circuit from the first flow path to the second flow path responsive to determining that the intake manifold air temperature needs to be decreased, the change in coolant flow being from the first flow path, where no portion of the coolant of the separate circuit aftercooler circuit is directed to the vaporizer, to the second flow path, where some or all of the coolant of the separate circuit aftercooler circuit is directed to the vaporizer; andcontrol supply of vaporized gas to the dual fuel engine while coolant of the separate circuit aftercooler circuit flows through the second flow path;wherein the controller is configured to control at least one valve of a plurality of valves to stop circulation of the coolant between the cooling jacket and the heat exchanger of the vaporizer responsive to the control to change the coolant flow of the separate circuit aftercooler circuit from the first flow path to the second flow path. 9. The system of claim 8, wherein the controller is configured to control at least one valve of a plurality of valves to continue circulation of the coolant between the cooling jacket and the heat exchanger of the vaporizer responsive to the control to change the coolant flow of the separate circuit aftercooler circuit from the first flow path to the second flow path. 10. The system of claim 8, wherein the portion of the coolant supplied to the separate circuit aftercooler by way of the second flow path is cooler than the coolant supplied to the separate circuit aftercooler by way of the first flow path. 11. The system of claim 8, wherein the determining that the intake manifold air temperature needs to be decreased is based on a determination that the received signals represent one of an abnormal combustion condition of the dual fuel engine or conditions or characteristics identified to lead to the abnormal combustion condition.
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이 특허에 인용된 특허 (7)
Grant, Steven Thomas; Lombardi, Frank; Puckett, Daniel Reese; Brown, Cory A.; Steffen, Joshua Wayne; Desiderio, Paul Joseph, Compressed natural gas fuel mass control system.
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